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DESIGNING AND DETAILING OF BUILDING SYSTEMS. MECHANICS IN CIVIL ENGINEERING

RELEVANT OBJECTIVES OF ASSURANCE OF RELIABILITY OF FACADE SYSTEMS SERVING THERMAL INSULATION AND FINISHING PURPOSES

Vestnik MGSU 12/2012
  • Yavorskiy Andrey Andreevich - Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU) Candidate of Technical Sciences, Professor, Department of Building Technology; +7 (831) 430-17-74, Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU), 65 Il'inskaya St., Nizhniy Novgorod, 603950, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Kiselev Sergey Aleksandrovich - Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU) Senior Lecturer, Department of Building Technology; +7 (831) 430-17-74, Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU), 65 Il'inskaya St., Nizhniy Novgorod, 603950, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 78 - 84

The authors consider up-to-date methods of implementation of requirements stipulated by Federal Law no. 261-FZ that encompasses reduction of heat losses through installation of progressive heat-insulation systems, cement plaster system (CPS), and ventilated facades (VF). Unresolved problems of their efficient application caused by the absence of the all-Russian regulatory documents capable of controlling the processes of their installation and maintenance, as well as the projection of their behaviour, are also considered in the article.
The authors argue that professional skills of designers and construction workers responsible for the design and installation of façade systems influence the quality and reliability of design and construction works.
Unavailability of unified solutions or regulations serves as the objective reason for the unavailability of the respective database; therefore, there is an urgent need to perform a set of researches to have the unified database compiled.
The authors use the example of thermal insulation cement plaster systems designated for facades as results of researches into the quantitative analysis of safety systems. Collected and systematized data that cover defects that have proven to be reasons for failures, as well as potential methods of their prevention are also studied. Data on pilot studies of major factors of influence onto reliability of glutinous adhesion of CPS to the base of a wall are provided.

DOI: 10.22227/1997-0935.2012.12.78 - 84

References
  1. Skorokhodova N.Yu., Aleksandriya M.G. Rynok naruzhnykh sistem teploizolyatsii fasadov [Market of External Systems of Thermal Insulation of Facades]. Stroyprofil’ [Building Profile]. 2011, no. 8(94), pp. 38—40.
  2. Meneylyuk A.I., Dorofeev V.S., Lukashenko L.E., Moskalenko V.I., Petrovskiy A.F., Sokha V.G. Sovremennye fasadnye sistemy [Modern Fa?ade Systems]. Kiev, Osvita Ukrainy Publ., 2008, 340 p.
  3. Fux V. Thermal Simulation of Ventilated PV-facades. Loughborough, Volker Fux, 2006, 249 p.
  4. Babkov V.V., Kolesnik G.S., Dolgodvorov V.A., Ponomarenko G.T. O nadezhnosti i dolgovechnosti navesnykh fasadnykh sistem [On Reliability and Durability of Add-on Facade Systems]. Stroitel’nye materialy [Construction Materials]. 2007, no. 7, pp. 24—26.
  5. Alekhin S.V. Navesnye fasadnye sistemy. Problemy, s kotorymi my stalkivaemsya [Add-on Facade Systems. Problems That We Face]. Stroyprofil’ [Building Profile]. 2007, no. 5(59), pp. 62—63.
  6. Skorokhodova N.Yu., Aleksandriya M.G. Rossiyskiy rynok fasadnykh sistem teploizolyatsii: istoriya i perspektivy [The Russian Market of Thermal Insulation Facade Systems: History and Prospects]. Stroyprofil’ [Building Profile]. 2010, no. 6(84), pp. 37—39.
  7. GOST R 51901.5—2005. Menedzhment riska. Rukovodstvo po primeneniyu metodov analiza nadezhnosti. [State Standard of Russia 51901.5—2005. Risk Management. Guide for Application of Methods of Reliability Analysis].
  8. Yavorskiy A.A., Kiselev S.A. Obespechenie kachestva teploizolyatsionno-otdelochnykh fasadnykh sistem monolitnykh ob”ektov [Quality Assurance of Thermal Insulation and Finishing Facade Systems of Site-cast Facilities]. Zhilishchnoe stroitel’stvo [Residential Housing Construction]. 2009, no.11, pp. 32—33.

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ASSESSMENT OF HYDROPHYSICAL AND MECHANICAL PROPERTIES OF THE NEW MINERAL-BASEDWATERPROOFING MATERIAL

Vestnik MGSU 2/2013
  • Lyapidevskaya Ol’ga Borisovna - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Professor, Department of Building Materials, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoye shosse, Moscow 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Bezuglova Ekaterina Aleksandrovna - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Building Materials, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoye shosse, Moscow 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 108-113

The authors consider the problems of influence of corrosive water media onto underground buildings and structures and various methods of their waterproofing. The market overview of up-to-date waterproofing compounds is provided in the article. The authors set forth their research findings identified at Moscow State University of Civil Engineering recently. A new mineral-based waterproofing coating material is presented. The authors deal with the issue of chemical interaction within the system of cement - microsilica - soda-silica glass and the issue of optimization of particle packing aimed at the assurance of superior protective and durability-related properties of the composition. The main process strengths of the new coating material are enlisted.The authors introduce the results of comparative tests of basic hydro-physical and mechanical (compressive strength, adhesive strength) properties of the new material and its analogues currently applied in the construction industry with a view to the assessment of the protective ability and the economic effectiveness of the new waterproofing material.

DOI: 10.22227/1997-0935.2013.2.108-113

References
  1. Shilin A.A. Remont zhelezobetonnykh konstruktsiy [Repair of Reinforced Concrete Structures]. Moscow, Gornaya kniga publ., 2010, 519 p.
  2. Kozlov V.V., Chumachenko A.A. Gidroizolyatsiya v sovremennom stroitel’stve [Waterproofing in the Present-day Construction Industry]. Moscow, ASV Publ., 2003, 118 p.
  3. Shilin A.A., Zaytsev M.V., Zolotarev I.A., Lyapidevskaya O.B. Gidroizolyatsiya podzemnykh i zaglublennykh sooruzheniy pri stroitel’stve i remonte [Waterproofing of Underground and Embedded Structured in the Course of Their Construction and Repair]. Kiev, Optima Publ., 2005, 396 p.
  4. Falikman V.R. New High Performance Polycarboxilate Superplasticizers Based on Derivative Copolymers of Maleinic Acid. 6th International Congress “GLOBAL CONSTRUCTION” Advances in Admixture Technology. Dundee, 2005, pp. 41—46.
  5. Batrakov V.G. Modifitsirovannye betony [Modified Concretes]. Moscow, Astra sem’ publ., 1998, 697 p.
  6. Fennis S.A.A.M., Walraven J.C. Design of Ecological Concrete by Particle Packing Optimization. Delft University of Technology, 2010, pp. 115—144.

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INCREASE OF ADHESION OF PAINT-AND-LACQUER MATERIALS TO WOOD THROUGH THE MODIFICATION OF ITS SURFACE BY BORON-NITROGEN COMPOUNDS

Vestnik MGSU 7/2012
  • Koteneva Irina Vasil'evna - Moscow State University of Civil Engineering (MSUCE) Candidate of Technical Sciences, Senior Lecturer, Department of General Chemistry, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Kotlyarova Irina Aleksandrovna - Bryansk State Technical University (BGTU) Candidate of Technical Sciences, Associate Professor, Department of Materials Science and Engineering, Bryansk State Technical University (BGTU), 7, Bul'var 50-letiya Oktyabrya, Bryansk, 241035, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Sidorov Vyacheslav Ivanovich - Moscow State University of Civil Engineering (MGSU) Doctor of Chemical Sciences, Professor, Professor, Department of General Chemistry, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 141 - 146

The authors demonstrate that the efficiency of protection of wooden structures, covered with paints and lacquer materials, from the influence of the environment, depends on the adhesion size.
It is common knowledge that improvement of adhesion of capillary-porous materials to the wood, and, hence, the increase of the service life of the sheeting requires the reduction in the dimensions of the wood surface, as the reduction of diameters of capillaries leads to the growth of forces of capillary condensation and to the increase in the depth of penetration of paints into the material.
Adhesion of a water-soluble acrylic paint and organic-soluble enamels to the surface of the wood modified by boron-nitrogen compounds and to unmodified wood is the subject of the research. It is identified that the increase in the adhesive durability of paint and varnish coverings if glued to the surface of the wood modified by boron-nitrogen compounds, is driven by the growth of the polarity of a substrate and the reduction of dimensions of the wood surface.

DOI: 10.22227/1997-0935.2012.7.141 - 146

References
  1. Tarasov S.M., Evdokimov Yu.M. Istoriya tekhnologii glubokoy pererabotki drevesiny i nauki ob adgezii [History of Technology of Advanced Processing of Wood and the Adhesion Science]. Moscow, Moscow State Forest University Publ., 2010, 40 p.
  2. Evdokimov Yu.M. Adgeziya. Ot makro- i mikrourovnya k nanosistemam [Adhesion. From Macro- and Microlevels to Nanosystems]. Moscow, Moscow State Forest University Publ., 2011, 208 p.
  3. Sanaev V.G. Drevesinovedenie v sisteme lesnogo khozyaystva [Study of Wood within the Framework of Forestry Management]. Moscow, Moscow State Forest University Publ., 2007, 180 p.
  4. Rudnev S.D. Adgezionnaya priroda prochnosti rastitel’noy tkani [Adhesive Nature of the Plant Tissue Strength]. Khranenie i pererabotka sel’khozsyr’ya [Storage and Processing of Agricultural Materials]. 2011, no. 8, pp. 50—53.
  5. Evdokimov Yu.M. Osobennosti adgezii v mikro- i nanosistemakh [Peculiarities of Adhesion within Micro- and Nanosystems]. Klei. Germetiki. Tekhnologii [Glues. Sealants. Technologies]. 2011, no. 3, pp. 2—8.
  6. Yakh’yaeva Kh.Sh., Zaikov G.E., Deberdeev T.R., Ulitin N.V., Stoyanov O.V., Kozlov G.V., Magomedov G.M., Nasyrov I.I. Strukturnye osnovy mezhfaznoy adgezii (nanoadgezii) v polimernykh kompozitakh [Structural Basics of Phase-to-Phase Adhesion (Nano-adhesion) of Polymer Composites]. Vestnik Kazanskogo tekhnologicheskogo universiteta [Proceedings of Kazan State University of Technology]. 2012, no. 5, pp. 68—70.
  7. Pokrovskaya E.N., Bel’tsova T.G. Fizicheskaya khimiya. Khimiya atmosfery. [Physical Chemistry. Chemistry of the Atmosphere]. Moscow, Stroitel’nykh Vuzov Publ. [Publishing House of Institutions of Higher Education in Civil Engineering]. 2006, 88 p.
  8. Kozhevnikov D.A. Kompozitsionnye materialy konstruktsionnogo naznacheniya na osnove sovmeshchennykh napolniteley i modifitsirovannykh kleev [Structural Compounds Based on Combined Fillers and Modified Glues]. Vestnik Kostromskogo gosudarstvennogo tekhnologicheskogo universiteta [Proceeding of Kostroma State University of Technology]. 2011, no. 6, pp. 44—47.
  9. Kononenko A.S., Gaydar S.M. Adgezionnaya prochnost’ germetikov i nanokompozitsiy na ikh osnove [Adhesive Strength of Sealants and Nanocompositions on Their Basis]. Remont, vosstanovlenie, modernizatsiya [Renovation, Restoration, Modernization]. 2011, no. 6, pp. 38—42.
  10. Kotlyarova I.A., Koteneva I.V., Myasoedov E.M., Sidorov V.I. Izuchenie kapillyarno-poristoy struktury modifitsirovannoy drevesiny [Study of Capillary-porous Structure of Modified Wood]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 4, vol. 3, pp. 106—111.

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IDENTIFICATION OF THICKNESS OF A COMPOSITE MATERIAL AS PART OF THE QM GLUED CONNECTION OF WOODEN ELEMENTS

Vestnik MGSU 8/2012
  • Linkov Nikolay Vladimirovich - Moscow State University of Civil Engineering Candidate of Technical Sciences, Department of Timber and Plastic Structures 8 (495) 287-49-14, ext. 31-11, Moscow State University of Civil Engineering, 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 125 - 130

The principal objective of the research project is to identify the thickness of an advanced
composite adhesive material used as part of a glued connection of wooden surfaces. The active
ingredients of the proposed adhesive material include an epoxy matrix and a glass fiber fabric. The
author has analyzed the bearing capacity and deformability of the proposed connection in relation
to the thickness of the composite material. The author used the methodology of assessment of the
bearing capacity of wooden structures developed by professor Yu.M. Ivanov. For the purposes of
development of optimal parameters of the "QM Glued" connection, the author identified the optimal
ratio of b, or width of the surface of connected elements, and the thickness of the composite material:
t = 1/40 b.

DOI: 10.22227/1997-0935.2012.8.125 - 130

References
  1. Lin’kov N.V. Nesushchaya sposobnost’ derevyannykh balok sostavnogo secheniya na soedinenii «KM-Vkladysh» [Bearing Capacity of Composite Sections of Wooden Beams If Connected Using the “CM-Liner” Method]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 1, pp.161—167.
  2. Shilin A.A., Pshenichnyy V.A., Kartuzov D.V. Usilenie zhelezobetonnykh konstruktsiy kompozitsionnymi materialami [Strengthening of Reinforced Concrete Structures by Composite Materials]. Moscow, Stroyizdat Publ., 2004.
  3. Shilin A.A., Pshenichnyy V.A., Kartuzov D.V. Vneshnee armirovanie zhelezobetonnykh konstruktsiy kompozitsionnymi materialami [Outside Reinforcement of Reinforced Structures by Composite Materials]. Moscow, Stroyizdat Publ., 2007.
  4. Blaschko M. and Zilch K. Rehabilitation of Concrete Structures with CFRP Strips Glued into Slits. Proceedings of the 12th International Conference on Composite Materials. Paris, 1999, July 5-9.
  5. Arduini M., Nanni A., Romagnolo M. Performance of Decommissioned Reinforced Concrete Girders Strengthened with Fiber-reinforced Polymer Laminates. ACI Structural Journal. September-October, 2002, pp. 652—659.
  6. Vasil’ev V.V., Protasov V.D., Bolotin. Vasil’ev V.V., Tarnopol’skiy Yu.M., editors. Kompozitsionnie materialy [Composite Materials]. Moscow, Mashinostroenie Publ., 1990.
  7. Rekomendatsii po ispytaniyu soedineniy derevyannykh konstruktsiy [Recommendations for the Testing of Connections of Wooden Structures]. Moscow, Stroyizdat Publ., 1980.
  8. Blaschko M., Niedermeier R., Zilch K. Saadatmanesh H. and Ehsani, M.R., editors. Bond Failure Modes of Flexural Members Strengthened with FRP. Proceedings of Second International Conference on Composites in Infrastructures, Tucson, Arizona, 1998, pp. 315—327.
  9. Lin’kov, N.V., Filimonov E.V. Modelirovanie sredstvami PK SCAD soedineniya derevyannykh elementov kompozitsionnym materialom na osnove epoksidnoy matritsy i steklotkani [Modeling of Wooden Elements Connected by a Composite Material Based on Epoxy Matrix and Fiberglass Using PC SCAD Software]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, Special Issue no. 1, pp. 50—53.
  10. Lin’kov N.V., Filimonov E.V. Prochnost’ i deformativnost’ kompozitsionnogo materiala na osnove epoksidnoy matritsy i steklotkani [Strength and Deformability of the Composite Material Based on the Epoxy Matrix and Fiberglass]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 1, pp. 235—243.

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MODIFICATION OF OIL BITUMEN BY TECHNOGENIC WASTE OF THERMOPLASTICS PRODUCTION

Vestnik MGSU 7/2016
  • Polyakov Vyacheslav Sergeevich - Ivanovo State Polytechnic University (IVGPU) Candidate of Technical Sciences, Doctoral Student, Department of Construction Materials Science, Special Technologies and Technological Facilities, Ivanovo State Polytechnic University (IVGPU), 20 8th Marta street, Ivanovo, 153037, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Akulova Marina Vladimirovna - Ivanovo State Polytechnic University (IVGPU) Doctor of Technical Sciences, Professor, head, Department of Construction Materials Science, Special Technologies and Technological Facilities, Ivanovo State Polytechnic University (IVGPU), 20 8th Marta street, Ivanovo, 153037, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Afanas’ev Andrey Igorevich - Ivanovo State Polytechnic University (IVGPU) postgraduate student, Department of Construction Materials Science, Special Technologies and Technological Facilities, Ivanovo State Polytechnic University (IVGPU), 20 8th Marta street, Ivanovo, 153037, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 57-66

In the article the author considers the questions of secondary use of organic liquid products, which are formed during the high temperature cleaning of the equipment for producing thermoplastic polymer polyamide 6, polyethylene, polypropylene. On chemical and petrochemical plants producing or processing thermoplastics, the recycling waste, including drilling fluids are quite a current issue. The authors of the article conducted a research on the possibility of applying flush fluids used for the modification of petroleum bitumen and as a basis of protective coatings for concrete, reinforced concrete. During the research it was found out that washing liquid can be used for modification of petroleum bitumens. The organic phase of drilling fluids and dissolved thermoplastics and products of their thermo-chemical destruction are similar in chemical nature and represent a stable dispersed system with surface-active properties. The experiments have shown their compatibility with oily carbonic acids, alcohols, their esters, as well as oil, vegetable, synthetic oils, organic solvents, synthetic resins and bitumen. The main purpose of the study is to reveal the effect of additives to polymers-containing drilling fluids on the properties of epoxy-bitumen coating for concrete and reinforced concrete. The results showed that the test fluids are effective modifiers of oil and bitumen, epoxy-bitumen coatings, improve their physical and mechanical properties and above all increase the adhesion strength of the coating with the concrete. The studies revealed the feasibility of the secondary usage of waste of polymer-containing liquids as modifying additives for petroleum asphalts and coatings on their basis.

DOI: 10.22227/1997-0935.2016.7.57-66

References
  1. Migul’skiy V.G., Figovskiy O.A., editors. Spravochnik po kleyam i kleyashchim mastikam v stroitel’stve [Reference Book on Glues and Adhesive Mastics in Construction]. Moscow, Stroyizdat Publ., 1984, 241 p. (In Russian)
  2. Mardirosova I.V., Chan N.Kh., Balabanova O.A. Modifitsirovannoe asfal’tovoe vyazhushchee povyshennoy stoykosti k stareniyu [Modified Asphalt Binder with Increased Ageing Resistance]. Izvestiya vysshikh uchebnykh zavedeniy. Stroitel’stvo [News of Higher Educational Institutions. Construction]. 2011, no. 4, pp. 15—20. (In Russian)
  3. Babaev V.I., Korolev I.V., Gridchin A.M., Shukhov V.I. Tekhnicheskie PAV iz vtorichnykh resursov v dorozhnom stroitel’stve [Technical Surface-Active Agents of Secondary Resources in Road Construction]. Moscow, Transport Publ., 1991, 320 p. (In Russian)
  4. Labutin A.L. Antikorrozionnye i germetiziruyushchie materialy na osnove sinteticheskikh kauchukov [Corrosion-Resistant and Sealing Materials Based on Synthetic Rubber]. Leningrad, Khimiya Publ., 1982, 213 p. (In Russian)
  5. Bedrik B.G., Chulkov P.V., Kalashnikov S.I. Rastvoriteli i sostavy dlya ochistki mashin i mekhanizmov [Solvents and Compositions for Cleaning Machines and Mechanisms]. Moscow, Khimiya Publ., 1989, 174 p. (In Russian)
  6. Boldyrev A.S., Zolotov P.P., editors. Stroitel’nye materialy: Spravochnik [Construction Materials: Reference Book]. Moscow, Stroyizdat Publ., 1989, 567 p. (In Russian)
  7. Chekulaeva E.I., Radzevich V.E., Sokolov V.A., Chernenko V.I. Zashchita stroitel’nykh konstruktsiy i khimicheskoy apparatury ot korrozii [Protection of Building Structures and Chemical Apparatus against Corrosion]. 2nd edition, revised and enlarged. Moscow, Stroyizdat Publ., 1989, 205 p. (Povyshenie masterstva rabochikh stroitel’stva i promyshlennosti stroitel’nykh materialov [Increasing the Skills of Construction and Construction Materials Industry Workers]) (In Russian)
  8. Solomatov V.I., Bobryshev A.N., Khimmler K.G. Polimernye kompozitsionnye materialy v stroitel’stve [Polymer Composite Materials in Construction]. Moscow, Stroyizdat Publ., 1988, 308 p. (In Russian)
  9. Bespalov Yu.A., Konovalenko N.G. Mnogokomponentnye sistemy na osnove polimerov [Multicomponent Systems Based on Polymers]. Leningrad, Khimiya Publ., 1981, 88 p. (In Russian)
  10. Pal’gunov P.P., Sumarokov M.V. Utilizatsiya promyshlennykh otkhodov [Utilization of Industrial Waste]. Moscow, Khimiya Publ., 1990, 347 p. (Okhrana okruzhayushchey prirodnoy sredy [Natural Environment Protection]) (In Russian)
  11. Sheverdyaev O.N., Krynkina V.N., Kos’kin I.Yu., Chernik G.G., Sheverdyaeva N.V. Svoystva bitumno-polimernykh materialov s vysokodispersnymi kremnezemsoderzhashchimi mineral’nymi napolnitelyami [Properties of Bitumen Polymer Materials with Finely-Dispersed Silica-Containing Mineral Fillers]. Stroitel’nye materialy [Construction Materials]. 2007, no. 9, pp. 72—73. (In Russian)
  12. Shekhter Yu.N., Kreyn S.E. Poverkhnostno-aktivnye veshchestva iz neftyanogo syr’ya [Surface-Active Agents Made of Oil Raw Materials]. Moscow, Khimiya Publ., 1971, 488 p. (In Russian)
  13. Kondakova I.E., Yausheva L.S., Bogatov A.D., Shishkin V.N., Erofeev V.T. Epoksidno-kamennougol’nye polimerbetony [Epoxy Coal Polymer Concretes]. Stroitel’nye materialy [Construction Materials]. 2006, no. 6, pp. 99—101. (In Russian)
  14. Kardashov D.A., Petrova A.P. Polimernye klei. Sozdanie i primenenie [Polymer Glues. Construction and Application]. Moscow, Khimiya Publ., 1991, 250 p. (In Russian)
  15. Ur’ev N.B. Fiziko-khimicheskie osnovy tekhnologii dispersnykh sistem i materialov [Physical and Chemical Bases of Dispersed Systems and Materials Technology]. Moscow, Khimiya Publ., 1988, 255 p. (In Russian)
  16. Matveev V.S., Yankov V.I., Gluz M.D., Kulichikhin V.G. Poluchenie i svoystva rastvorov i rasplavov polimerov [Manufacturing and Properties of Polymer Solutions and Melts]. Moscow, Khimiya Publ., 1994, 319 p. (In Russian)
  17. Pertsov N.V., Yakovlev V.M. Rol’ poverkhnostnykh khimicheskikh vzaimodeystviy v proyavlenii effekta Rebindera pri obrabotke materialov v galogensoderzhashchikh sredakh [The Role of Surface Chemical Interactions in the Rehbinder Effect when Processing Materials in Halogenous Media]. Fizika i khimiya obrabotki materialov [Physics and Chemistry of Materials Proccessing]. 1985, no. 4, pp. 38—46. (In Russian)
  18. Fedosov S.V., Akulova M.V., Krasnov A.M. Legkiy melkozernistyy beton povyshennoy prochnosti [Lightweight Fine-Grained Concrete with Increased Strength]. Uchenye zapiski inzhenerno-stroitel’nogo fakul’teta [Scientific Notes of Engineering and Construction Department]. Ivanovo, 2008, no. 4, pp. 17—20. (In Russian)
  19. Kuchma M.I. Poverkhnostno-aktivnye veshchestva v dorozhnom stroitel’stve [Surface-Active Matters in Road Construction]. Moscow, Transport Publ., 1980, 191 p. (In Russian)
  20. Berlin A.A., Vol’fson S.A., Oshmyan N.S., Enikolopov N.S. Printsipy sozdaniya polimernykh kompozitsionnykh materialov [Principles of Creating Polymer Composite Materials]. Moscow, Khimiya Publ., 1990, 238 p. (In Russian)
  21. Richardson M.O.W., editor. Polymer Engineering Composites. Elsevier Science & Technology, 1977, 585 p.

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